The New Phytologist137 (1997), 179–203 Tansley Review No. 95: ¹⁵N natural abundance in soil–plant systems

Abstract

The following citations were erroneously omitted from the ‘References’:

Groffman PM, Zak DR, Christensen S, Mosier A, Tiedje JM. 1993. Early spring nitrogen dynamics in a temperate forest landscape. Ecology74: 1579–1585.

Handley LL, Brendel O, Scrimgeour CM, Schmidt S, Raven JA, Turnbull MH, Stewart GR. 1996. The ¹⁵N natural abundance patterns of field-collected fungi from three kinds of ecosystems. Rapid Communications in Mass Spectrometry10: 974–978.

Handley LL, Daft MJ, Wilson J, Scrimgeour CM, Ingleby K, Sattar, MA. 1993. Effects of the ecto- and VA-mycorrhizal fungi Hydnagium carneum and Glomus clarum on the δ¹⁵N and δ¹³C values of Eucalyptus globulus and Ricinus communis. Plant, Cell and Environment16: 375–382.

Handley LL, Odee D, Scrimgeour CM. 1994. δ¹⁵N and δ¹³C patterns in savanna vegetation: dependence on water availability and disturbance. Functional Ecology8: 306–314.

Handley LL, Raven JH. 1992. The use of natural abundance of nitrogen isotopes in plant physiology and ecology: commissioned review. Plant, Cell and Environment15: 965–985.

Handley LL, Scrimgeour CM. 1997. Terrestrial plant ecology and ¹⁵N natural abundance: the present limits to interpretation for uncultivated systems with original data from a Scottish old field. Advances in Ecological Research27: 133–212.

Hansen AP, Pate JS. 1987. Evaluation of the ¹⁵N natural abundance method and xylem sap analysis for assessing N₂ fixation of understorey legumes in jarrah (Eucalyptus marginata Donn ex Sm.) forest in S.W. Australia. Journal of Experimental Botany38: 1446–1458.

New Phytologist apologizes unreservedly to all authors of the above papers for this error.